Seeing where the ears hear: visual encoding of auditory spatial sequences

Gary Bargary, Dept. of Psychology, University of Dublin Trinity College

Abstract
In the temporal domain, audition can play a significant role in the processing of a visual event (Blake et al., 2005) suggesting mandatory recoding of temporal information into audition. Here we examined the corollary that auditory spatial events are recoded into vision. To that end, we investigated whether the perception of a sequence of auditory stimuli across a broad spatial array was affected by concomitant, task-irrelevant visual spatial information. The task involved comparing two successive auditory sequences. During the initial auditory sequence visual stimuli were interleaved with the auditory events and were either congruent, incongruent, absent or non-informative (present in all locations) with the location of the auditory stimuli. Importantly, sufficient spatial and temporal disparities between the auditory and visual stimuli were introduced to eliminate any effects due to visual capture or the ‘ventriloquist’ effect. We found that task-irrelevant visual information incongruent to the auditory spatial sequence significantly disrupted performance compared with the 3 other conditions (Exp 1). When conditions were blocked (Exp 2) we found that congruent visual information facilitated performance. These findings suggest mandatory coding of spatial information into vision and have implications for our understanding of the mechanisms that facilitate integration of spatial information across the senses.

Not available

Back to Abstract